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Investigation and Prediction of Outdoor Thermal Comfort under Different Protection and Activity Intensity Conditions in Summer in Wuhan

Xiaoyu Cai, Xiaofang Shan, Zeng Zhou, Xin Kang, Qinli Deng

2024Sustainability13 citationsDOIOpen Access PDF

Abstract

In the context of normalized epidemic prevention and control, the impact of masks and protective clothing on personal thermal comfort cannot be overlooked. To investigate the thermal comfort of outdoor personnel under various protective conditions, this study took Wuhan as an example and evaluated the outdoor thermal comfort of subjects under different protection and activity conditions through thermal environment monitoring, physiological measurements, and thermal comfort questionnaires. The results show significant differences in the PET thermal comfort baseline under various protective conditions. To address the problem that most areas have not yet established state-specific thermal comfort baselines, a State Outdoor Comfort Index (SOCI) model was developed to correct the insensitivity of PET indicators to clothing thermal resistance and metabolic rate. Finally, the performance of the SOCI model was evaluated through statistical indicators, demonstrating its good predictive capability. This study provides appropriate quantitative indicators to improve the thermal comfort of outdoor personnel.

Topics & Concepts

Environmental scienceThermal comfortIntensity (physics)MeteorologyAtmospheric sciencesEnvironmental engineeringArchitectural engineeringGeographyEngineeringGeologyQuantum mechanicsPhysicsUrban Heat Island MitigationBuilding Energy and Comfort OptimizationUrban Green Space and Health
Investigation and Prediction of Outdoor Thermal Comfort under Different Protection and Activity Intensity Conditions in Summer in Wuhan | Litcius